Question
1 What is a reasonable estimate for the density of sand?
A 2 × 102 g cm–3
B 2 × 103 g cm–3
C 2 × 101 kg m–3
D 2 × 103 kg m–3
Answer/Explanation
Ans
D
Question
2 Which physical quantity could have units of Ns2m–1?
A acceleration
B force
C mass
D momentum
Answer/Explanation
Ans
C
Question
3. A velocity vector is shown.
What are the components of the velocity vector in the northerly and in the easterly directions?
Answer/Explanation
Ans:
C
Question
4 A micrometer screw gauge is used to measure the diameter of a copper wire.
The reading with the wire in position is shown in diagram 1. The wire is removed and the jaws of
the micrometer are closed. The new reading is shown in diagram 2.
What is the diameter of the wire?
A 1.95 mm B 2.45 mm C 2.59 mm D 2.73 mm
Answer/Explanation
Ans
B
Question
5 A student measures the current and the potential difference for a resistor in a circuit.
current = (50.00 ± 0.01) mA
potential difference = (500.0 ± 0.1) mV
The measurements are used to calculate the resistance of the resistor.
What is the percentage uncertainty in the calculated resistance?
A 0.0002% B 0.0004% C 0.02% D 0.04%
Answer/Explanation
Ans
D
Question
6 Four cars, A, B, C and D, move from rest in a straight line. The cars take the same time to
accelerate to a velocity of 60 km h–1. Their velocity–time graphs are shown.
Which car reaches a velocity of 60 km h–1 in the shortest distance?
Answer/Explanation
Ans
D
Question
7 A cannon fires a cannonball with an initial speed v at an angle ∝ to the horizontal.
Which equation is correct for the maximum height H reached?
Answer/Explanation
Ans
C
Question
8 A ball strikes a horizontal surface with momentum p at an angle θ to the surface, as shown.
The ball rebounds with the same magnitude of momentum at an angle θ to the surface.
The ball is in contact with the surface for time t.
What is the magnitude of the average resultant force acting on the ball during the collision?
Answer/Explanation
Ans
D
Question
9 A skydiver, who is falling vertically through the air, opens his parachute.
Which row describes the velocity of the skydiver immediately after he opens his parachute?
Answer/Explanation
Ans
A
Question
10 A stationary firework explodes into four fragments which travel in different directions in a
horizontal plane. The diagram shows the velocity and mass of each fragment.
What is the speed v of fragment X?
A 200 m s–1 B 240 m s–1 C 300 m s–1 D 360 m s–1
Answer/Explanation
Ans
A
Question
11 A particle with mass moves in a horizontal straight line through a uniform electric field in a
vacuum. The electric field is vertical.
There is a significant gravitational effect on the motion of the particle.
What could be the direction of the electric field and the sign of the charge, if any, on the particle?
Answer/Explanation
Ans
A
Question
12 Two parallel forces, each of magnitude F, act on a rod of length 5d.
Which diagram shows the positions of the two forces that will produce the largest torque on the
rod?
Answer/Explanation
Ans
D
Question
13 A mass of 30 kg is suspended from the end of a wire. A horizontal force F acts on the mass so
that it is in equilibrium, with the wire at an angle of 30° to the vertical, as shown.
What is the magnitude of F?
A 17N B 150 N C 170 N D 510 N
Answer/Explanation
Ans
C
Question
14 A balance is used to measure the mass m of a number of cylindrical metal rods of length l. All the
metal rods have the same radius r.
The graph shows the variation with l of m.
The gradient of the graph is G.
Which expression gives the density of the metal?
Answer/Explanation
Ans
C
Question
15 Two blocks, X and Y, are on a horizontal frictionless surface. The mass of block Y is greater than
that of block X. Block Y has a spring attached to its end.
The blocks are pushed together so that the spring is compressed between them and the blocks
are held stationary as shown.
When released, the blocks move in opposite directions.
Which statement is correct?
A After release, the kinetic energy of block X must equal the kinetic energy of block Y.
B After release, the sum of the kinetic energies of the blocks is equal to zero.
C The total energy of the spring and blocks immediately before release is zero.
D The total energy of the spring and blocks is equal to the energy needed to bring the blocks
together.
Answer/Explanation
Ans
D
Question
16 A gas is contained in a cylinder by a movable piston.
The cylinder has a circular cross-section of diameter 20.0 cm.
The pressure of the gas is 102Pa and the piston is initially 30.0 cm from the base of the cylinder.
The gas is heated causing the piston to move up so that it is 35.0cm from the base. The pressure
of the gas remains constant.
How much work does the gas do in moving the piston?
A 0.160 J B 0.641 J C 1.12 J D 4.49 J
Answer/Explanation
Ans
A
Question
17 An egg of mass 25g falls vertically downwards from the surface of a table which is 900mm above
the ground. Air resistance is negligible.
What is the kinetic energy of the egg when it hits the ground?
A 0.023 J B 0.22 J C 23 J D 220 J
Answer/Explanation
Ans
B
Question
18 An aircraft travels at a constant velocity of 90m s–1 in horizontal flight. The diagram shows the
horizontal forces acting on the aircraft.
The mass of the aircraft is 2000 kg.
What is the power produced by the thrust force?
A 1.8 × 105W B 2.2 × 105W C 1.8 × 106W D 2.0 × 106W
Answer/Explanation
Ans
B
Question
19 Which expression is equal to the stress on a wire?
Answer/Explanation
Ans
B
Question
20 A wire is stretched by applying increasing values of force F. For each value of force applied, the
extension x is recorded. A force–extension graph is plotted from the data obtained.
Which statement about the area under the graph must be correct?
A It can be calculated as ½ Fx .
B It is the elastic potential energy stored in the stretched sample.
C It is the work done in stretching the sample.
D It would be the same for any wire of the same material.
Answer/Explanation
Ans
C
Question
21 A progressive radio wave in a vacuum has a frequency of 75 MHz.
What is the phase difference between two points on the wave that are 50 cm apart from each
other?
A 23° B 45° C 90° D 180°
Answer/Explanation
Ans
B
Question
22 Which statement is correct for longitudinal waves but not correct for transverse waves?
A They can form stationary waves.
B They can only travel through a medium.
C They can transfer energy in the direction of travel.
D They consist of peaks and troughs.
Answer/Explanation
Ans
B
Question
23 A loudspeaker emitting a sound wave of a single frequency is placed a distance L from a
reflecting surface, as shown.
A stationary wave is formed with an antinode at the loudspeaker. A microphone is moved from
the loudspeaker to the reflector.
Before the microphone reaches the reflector, it detects four points where the sound intensity is a
minimum.
What is the wavelength of the sound wave?
Answer/Explanation
Ans
C
Question
24 A source of sound of frequency F at point Z is moving at a steady speed. The pattern of the
emitted wavefronts is shown.
Which row describes the frequencies of the sound heard by stationary observers at X and Y?
Answer/Explanation
Ans
C
Question
25 What is not a possible value for the wavelength of the named electromagnetic waves when it is
travelling in a vacuum?
Answer/Explanation
Ans
D
Question
26 Two waves, P and Q, meet at a point X and superpose.
Initially, the two waves meet at X in phase (zero phase difference) so that the resultant wave has
an amplitude of 14.0 cm at that point.
The phase difference between the two waves is then changed so that they meet at X with a
phase difference of 180°. The resultant wave now has an amplitude of 4.0 cm at X.
What is the amplitude of one of the waves at point X?
A 2.0 cm B 5.0 cm C 10 cm D 18 cm
Answer/Explanation
Ans
B
Question
27 A water wave is diffracted as it passes through a gap between two barriers in a ripple tank. The
wave is observed to ‘spread out’ as it moves through the gap.
Which two factors both affect the amount of diffraction observed?
A the amplitude and frequency of the incident wave
B the amplitude of the incident wave and the width of the gap
C the wavelength and amplitude of the incident wave
D the wavelength of the incident wave and the width of the gap
Answer/Explanation
Ans
D
Question
28 Two sources of microwaves P and Q produce coherent waves with a phase difference of 180°.
The waves have the same wavelength λ.
At the point S there is a minimum in the interference pattern produced by waves from the two
sources. The distance (QS – PS) is called the path difference.
Which expression could represent the path difference?
Answer/Explanation
Ans
C
Question
29 A beam of red laser light of wavelength 633 nm is incident normally on a diffraction grating with
600 lines per mm.
The beam of red light is now replaced by a beam of blue laser light of wavelength 445 nm. A
replacement diffraction grating is used so that the first-order maximum of the blue light appears at
the same position on the screen as the first-order maximum of the red light from the original laser.
How many lines per mm are there in the replacement diffraction grating?
A 420 mm–1 B 470 mm–1 C 600 mm–1 D 850 mm–1
Answer/Explanation
Ans
D
Question
30 Which diagram best represents the field lines in the electric field produced by a combination of
one point positive charge and one point negative charge?
Answer/Explanation
Ans
B
Question
31 The diagram shows a thundercloud whose base is 500 m above the ground.
The potential difference between the base of the cloud and the ground is 200 MV. A raindrop with
a charge of 4.0 × 10–12C is in the region between the cloud and the ground.
What is the electrical force on the raindrop?
A 1.6 × 10–6N B 8.0 × 10–4N C 1.6 × 10–3N D 0.40N
Answer/Explanation
Ans
A
Question
32 The current I in a metal wire is given by the equation
I = Anvq.
What does the symbol n represent?
A the number of charge carriers in the wire
B the number of charge carriers per unit cross-sectional area of the wire
C the number of charge carriers per unit length of the wire
D the number of charge carriers per unit volume of the wire
Answer/Explanation
Ans
D
Question
33 A cell of negligible internal resistance is connected to resistors R1, R2 and R3, as shown. The cell
provides power to the circuit and power is dissipated in the resistors.
Which word equation must be correct?
A power dissipated in R1 = power dissipated in R2 + power dissipated in R3
B power dissipated in R2 = power dissipated in R3
C power output of cell = power dissipated in R1 + power dissipated in R2 + power dissipated in R3
D power output of cell = power dissipated in R1
Answer/Explanation
Ans
C
Question
34 A fixed resistor and a diode are connected in series to a battery of electromotive force (e.m.f.)
6.0V and negligible internal resistance. The graph shows the variation with potential difference
(p.d.) V of the current I for the diode.
The current in the diode is 40 mA.
What is the resistance of the fixed resistor?
A 30Ω B 120Ω C 150Ω D 180Ω
Answer/Explanation
Ans
B
Question
35 An electrical cable consists of seven strands of copper wire, each of diameter 0.30 mm,
connected in parallel.
The resistivity of copper is 1.72 × 10–8Ω m. The current in the cable is 13A.
What is the potential difference (p.d.) between two points on the cable a distance of 1.0 m apart?
A 0.0045V B 0.11V C 0.45V D 3.2V
Answer/Explanation
Ans
C
Question
36 A cell that has internal resistance is connected to a switch S and a variable resistor. A voltmeter
is connected between the terminals of the cell, as shown.
When switch S is open, the voltmeter reads 1.5V. The switch is then closed and the variable
resistor is adjusted to have a resistance of 4.0Ω. The voltmeter now reads 0.75V.
What is the internal resistance of the cell?
A 1.0Ω B 2.0Ω C 4.0Ω D 8.0Ω
Answer/Explanation
Ans
C
Question
A cell of electromotive force (e.m.f.) E and negligible internal resistance is connected into a circuit, as shown.
The voltmeter has a very high resistance and reads a potential difference Vout.
Answer/Explanation
Ans :D
Question
38 A battery is connected to a potentiometer. The potentiometer consists of a uniform resistance
wire and a sliding contact P.
The potential difference (p.d.) V between the sliding contact P and end Q of the wire is measured
using a voltmeter. The sliding contact P is moved from end Q to end R of the wire. Sliding contact
P is distance d from Q.
Which graph shows the variation with distance d of the p.d. V?
Answer/Explanation
Ans
A
Question
39 The figure shows part of a chart of nuclides where neutron number is plotted against proton
number.
An unstable nuclide X decays by emitting an α-particle.
Which nuclide is formed by the decay of nuclide X?
Answer/Explanation
Ans
B
Question
40 The nuclei of common isotopes of hydrogen, helium, lithium and beryllium are shown. Which nucleus contains equal numbers of up and down quarks?
Answer/Explanation
Ans
B